JP4456912B2 - Mobile phone selectively connected to one of a plurality of mobile phone systems, control method thereof, and program - Google Patents

Description

  The present invention relates to a mobile phone that is selectively connected to one of a plurality of mobile phone systems, and more particularly to a technique for reducing a decrease in availability that occurs when a connection is switched.

In recent years, the spread of mobile telephone services has been remarkable, and a large number of operators provide mobile telephone services in various ways. As a result, the user is given a number of options with different service areas, usage fees, additional functions, and the like.
Under such circumstances, it is possible to connect to a plurality of mobile phone service systems (hereinafter simply referred to as systems) with different operators and systems, and a mobile phone that is connected to one of them according to the user's choice is practical. It is offered to. The user can use the mobile phone service by simply carrying one mobile phone and connecting to a suitable system according to the location, purpose of use, and usage fee.

  A method for switching a connection system in such a cellular phone is disclosed in Patent Document 1, for example. Patent Document 1 exemplifies a mobile phone that switches between GSM (Global Systems for Mobile communications) and PHS (Personal Handy phone System) mobile communication systems. At the time of power-on and periodically thereafter, the mobile phone tries to preferentially register the location to a PHS that has a small service area but a low usage fee, and also receives a control signal from the GSM control channel and performs the control. Record the control channel on which the signal was received. The recording is also performed when the location registration to the PHS is successful (FIGS. 3 and 6 of Document 1).

As soon as it goes out of the PHS range, GSM can be used in the shortest time without the time for searching for the control channel again by trying to register the location in the GSM via the recorded control channel. (FIG. 2 of Document 1).
JP 11-298964 A

  However, since the cellular phone that operates according to the above-described conventional switching method periodically tries to connect to the PHS, there is a risk that the mobile phone may not be able to accept incoming calls from GSM during that time. If this happens, the caller who makes a call to the mobile phone via GSM is notified of a message indicating that he / she is out of service area even though the other party is in service area. However, according to the conventional mobile phone, there is a problem that this inconvenience cannot be effectively dealt with.

As in this example, if only two systems are switched, this inconvenience may not be manifested because the time to attempt location registration with PHS is very short. It is also conceivable to avoid this inconvenience by providing a circuit for processing the two systems completely in parallel.
However, if the number of systems to be switched is larger, it is not practical to provide a circuit for processing all the systems completely in parallel. Therefore, a situation in which the time for attempting location registration in the system increases is unavoidable, and the above-described disadvantage becomes obvious.

  In view of the above problems, the present invention reduces the availability that occurs when trying to connect to a system having a higher priority than the active system among the plurality of mobile telephone systems managed in priority. It is an object of the present invention to provide a mobile phone, a control method therefor, and a program that alleviate the inconvenience of being unable to receive an incoming call from an active system.

  In order to solve the above problem, a mobile phone according to the present invention is a mobile phone that selectively waits for one of a plurality of mobile phone systems as an active system, and stores the order of each of the plurality of mobile phone systems. System information storage means, scanning means for interrupting standby of the active system and attempting to acquire a higher-order system higher than the active system, and acquisition of the higher-order system until a predetermined condition is satisfied When it is attempted, it includes interrupt waiting means for interrupting the capturing of the host system and resuming standby of the active system.

  Further, when the interrupt standby means tries to acquire the upper system until a predetermined number of times or continuously fails for a predetermined time, it interrupts the acquisition of the upper system and resumes standby of the active system. May be.

According to the above-described configuration, since the active system is interrupted while waiting for acquisition of the host system and waits for the active system, the inconvenience of being unable to respond to a call from the active system is reduced. In particular, if the active system is waited for at intervals sufficiently smaller than the call duration, the inconvenience of being unable to respond to the call from the active system is almost completely eliminated.
Further, the interrupt standby means may resume the acquisition attempt of the host system if there is no call from the active system for a predetermined time.

According to this configuration, when it is confirmed that there is no call due to the standby performed during acquisition of the upper system, acquisition of the upper system is resumed, so that all upper systems are scanned without omission.
The scanning unit may attempt to capture a lower system having a lower rank than the active system when the acquisition of the upper system fails and then the standby of the active system also fails.

According to this configuration, if the system cannot be returned to the active system after scanning the upper system, any mobile telephone system is made available as much as possible by attempting to acquire the lower system.
In order to solve the above problem, a control method of the present invention is a control method of a mobile phone that selectively waits for one of a plurality of mobile phone systems as an active system, and the mobile phone includes the plurality of mobile phone systems. Each rank is stored, the standby step of the active system is interrupted, and a scan step for attempting to acquire a higher system having a higher rank than the active system, and until the predetermined condition is satisfied for acquisition of the upper system An interrupt standby step of interrupting the upper system capture attempt and resuming standby of the active system when continuously attempted.

In addition, when the interrupt standby step tries to acquire the higher system until a predetermined number or a predetermined time continuously fails, the interruption of the upper system is interrupted and the standby of the active system is resumed. May be.
Further, the interrupt waiting step may resume the acquisition attempt of the host system if there is no call for a predetermined time from the active system.

Further, in the scan step, after failing to catch the higher system, if the standby of the current system further fails, it may try to catch a lower system having a lower rank than the current system.
By operating the mobile phone according to these control methods, the same effects as described above can be obtained.

  In order to solve the above problems, the program of the present invention is a computer-executable program for controlling a mobile phone that selectively waits as one of a plurality of mobile phone systems as an active system, and the mobile phone includes: A ranking of each of the plurality of mobile telephone systems is stored, and the computer executes the steps according to at least one of claims 5 to 8.

  By controlling the mobile phone using this program, the same effects as described above can be obtained.

The mobile phone according to the embodiment of the present invention selectively connects one of a plurality of mobile phone systems as an active system. This mobile phone manages the priorities of the multiple mobile phone systems, periodically interrupts the standby of the active system, and connects to a system with higher priority (hereinafter referred to as a host system). Try.
At this time, when a predetermined number of continuous attempts are made to connect to the host system, the mobile phone returns to the active system and waits for a predetermined time. If there is no call, the mobile phone continues to connect to another host system. Try.

Hereinafter, the mobile phone will be described in detail with reference to the drawings.
<Overall configuration>
FIG. 1 is a functional block diagram showing the overall configuration of the mobile phone 1.
The mobile phone 1 includes an antenna 10, a radio unit 20, a modem unit 30, an audio processing unit 40, a microphone 41, a receiver 42, a control unit 50, a storage unit 60, a clock unit 70, an operation unit 80, and a display unit 81. The

The radio unit 20 amplifies the received signal received by the antenna 10, and the modem unit 30 demodulates the amplified received signal into a control data signal and a received voice signal. The control unit 50 controls connection with the system based on the control data signal, and the voice processing unit 40 performs D / A conversion on the received voice signal obtained thereafter and causes the receiver 42 to generate a sound.
The voice processing unit 40 A / D converts the transmission voice signal acquired from the microphone 41. The modem 30 modulates the A / D converted transmission voice signal and the control data signal provided from the controller 50 into a transmission signal, and the radio unit 20 amplifies the transmission signal and transmits it from the antenna 10.

  Here, the radio unit 20, the modulation / demodulation unit 30, and the control unit 50 are configured to be adapted to a transmission method and frequency used by a plurality of systems to which the mobile phone 1 can be connected, and by switching the transmission method and frequency, Connect to one of the systems. Since a configuration for adapting to a plurality of systems is not a characteristic part of the present invention, a general configuration conventionally used is appropriately adopted and description thereof is omitted.

The clock unit 70 measures the current time and outputs it to the control unit 50.
The display unit 81 is realized by a color liquid crystal panel, DMD (digital mirror device), organic EL panel, PDP (plasma display panel), or the like, and displays the current time, the remaining battery level, the radio wave intensity, and the like.
The operation unit 80 includes a numeric keypad, an off-hook key, an on-hook key, and the like, and is used for dial operation, call start operation, call end operation, and the like.

Specifically, the control unit 50 is realized using a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and a program stored in the ROM is used as a working memory. The overall operation of the mobile phone 1 is controlled by the CPU being executed by the CPU. Among other things, the following operations characterize the present invention.
The system acquisition control unit 51 attempts to acquire the system designated by the scan control unit 52. Here, “capture” refers to a case where a control signal from the system is received and reception is successful.

  While waiting for the active system, the scan control unit 52 uses the scan pointer register 54 as a working memory to sequentially instruct the system acquisition control unit 51 to acquire higher-order systems according to priority. At that time, the interrupt standby control unit 53 performs control to temporarily return the connection to the active system and perform standby whenever acquisition of a predetermined number of higher systems successively fails.

The storage unit 60 is realized using a flash memory or the like, and is provided with a system information table 61 and an active system register 62. The system information table 61 holds a list of systems to which the mobile phone 1 can be connected together with priorities, and the current system register 62 records the last connected system as the current system.
<Data structure>
FIG. 2 shows an example of the data structure and contents of the system information table 61 provided in the storage unit 60.

Each row of the system information table 61 is provided corresponding to one system. The priority column 611 holds the priority given to the system, the transmission method column 612 holds the transmission method used by the system for communication, and the control channel frequency column 613 holds the frequency of each of one or more control channels used by the system. To do.
Here, for convenience of explanation, examples in which the priorities are all different are given, but the same order may be given to several systems.

Various applications are assumed for this priority. This priority order may be set so that, for example, a user of a mobile phone is preferentially connected to a frequently used system according to a usage fee, an additional function, or the like. When this mobile phone is supplied from a mobile phone service provider, priorities are set in the order of the provider's system, the provider's system roaming with the provider, and other systems. You can also The present invention does not limit the use of priority.
<Operation>
FIG. 3 is a flowchart showing system switching processing executed by the mobile phone 1.

This process is periodically executed during normal standby in the active system when the rank of the active system is other than 1. Further, it may be executed immediately after the power is turned on or when the connection with the previous active system is restored from the out-of-service state of all systems. For this execution, a work variable i (not shown) provided in the interrupt standby control unit 53 is used.
First, the interrupt standby control unit 53 sets i to 1 (S11). The scan control unit 52 scans the host system while incrementing the scan pointer by 1 within the range of the rank of the host system (from 1 to rank-1 of the active system) (S13 to S21).

  The scan control unit 52 refers to the transmission method and control channel frequency of the system indicated by the scan pointer from the system information table 61, notifies the system acquisition control unit 51 of the referenced content, and instructs the system acquisition. The system acquisition control unit 51 attempts to receive a control signal from the control channel of the system by controlling the radio unit 20 and the modem unit 30 according to the notified contents, and performs location registration in the system when the control signal is received. (S13).

When the system is captured (S14: YES), the current system is updated by recording the rank of the captured system in the working system register 62 (S26), and the new working system is awaited (S27).
When the system is not captured (S14: NO), the interrupt standby control unit 53 increases i by 1 (S15). Here, if i exceeds a predetermined threshold value (S16: YES), i is reset to 1 (S17), and then the transmission method and control channel frequency of the working system are referred from the system information table 61 and referred to. The obtained contents are notified to the system acquisition control unit 51 to instruct acquisition of the system. The system capture control unit 51 attempts to capture the active system according to the notified contents (S18). If captured (S19: YES), the system capture control unit 51 waits for a predetermined time (S20). This stand-by is referred to as “waiting for an interrupt” to distinguish it from a normal stand-by.

Thereafter, the scan pointer is incremented by 1, and the next higher system is processed.
When scanning of the host system is completed, the system acquisition control unit 51 tries to acquire the active system (S22). If it is acquired (S23: YES), the active system returns to normal standby (S24). If the current system cannot be returned (S23: NO), the lower system is scanned to try to acquire the system (S25). Although not shown, when the acquisition of all lower systems fails, the mobile phone 1 displays out of service area. Of course, even during the scan of the lower system, it is possible to wait for the interrupt of the active system whenever acquisition of a predetermined number of systems fails continuously.
<Specific example>
FIG. 4 is an example of the operating environment of the mobile phone 1, and is drawn corresponding to an example of the contents of the system information table 61 (see FIG. 2). The mobile phone 1 is in the service area 90 of the active system S ₇ (rank 7), and is registered in the base station 95 for normal standby. At this time, the mobile phone 1 is outside the service areas 91 to 93 of the higher systems S _{1 to} S ₆ (ranks 1 to 6) and cannot receive control signals from the respective base stations 96 to 98.

FIG. 5 is an example of an operation sequence when system switching processing is performed in this operating environment. Here, the threshold value of i relating to activation of interrupt waiting is set to 3.
Mobile phone 1 is initially in the active system S ₇ is performed normal standby. At this time, the upper systems to be scanned are S _{1 to} S ₆ . The mobile phone 1 tries to capture in the order of the host systems S ₁ , S ₂ , S ₃ . Then, when the consecutive failed to capture the three host system, it performs the standby interrupt to capture the working system S _7. Then, after confirming that there is no call, it tries to capture in the order of the upper systems S ₄ , S ₅ , S ₆ , captures the active system S ₇ again, and returns to normal standby.

When a call is confirmed while waiting for an interrupt, of course, a normal incoming call operation is performed, and the user is notified of the incoming call by, for example, ringing of a ringer.
In general, a call from a mobile phone system is continuously performed for several seconds to several tens of seconds. Therefore, by adopting a threshold value in which the upper limit of the time for continuously scanning the host system is sufficiently smaller than the call duration, the active system can be waited at least once during the call. As a result, the inconvenience of being unable to respond to calls from the active system during the scan of the host system is almost eliminated.

  In the embodiment, the waiting for interruption is started based on the upper limit number of continuous scanning of the higher system, but may be started more directly according to the upper limit time of continuous scanning of the higher system. . Therefore, in the flowchart of FIG. 3, it is considered that a timer is used instead of the work variable i, S11 and S15 are changed to the restart process of the timer, and S16 is changed to a process for determining the expiration of the timer. It is done.

In the embodiment, all the systems to which the mobile phone 1 can be connected are integrally held in the system information table 61, but may be divided into a plurality of system information tables corresponding to geographical locations. Good. In this case, the number of host systems to be scanned can be appropriately reduced according to the geographical location, so that the burden of scanning processing can be reduced. Instead of providing a plurality of system information tables, the same effect can be obtained even if the system information table 61 is divided into parts according to geographical locations.
<Summary>
As described above, according to the mobile phone of the present invention, since the active system is interrupted and waits for the active system during scanning of the host system, the inconvenience of being unable to respond to a call from the active system is reduced. In particular, if the active system is waited for every time sufficiently smaller than the call duration, the inconvenience of being unable to respond to a call from the active system is almost eliminated.
<Other variations>
Although the present invention has been described based on the above embodiment, it is needless to say that the present invention is not limited to the above embodiment. The following cases are also included in the present invention.

The present invention may be a computer program for implementing the method described in the embodiment using a CPU for controlling a mobile phone, or may be a digital signal representing the program.
Further, the present invention may be a computer-readable recording medium in which the program or the digital signal is recorded, for example, a flexible disk, a hard disk, a CD, an MO, a DVD, a BD, a semiconductor memory, or the like.

The present invention may be the computer program or the digital signal transmitted via an electric communication line, a wireless or wired communication line, a network represented by the Internet, or the like.
In addition, the program or the digital signal may be recorded on the recording medium and transferred, or transferred via the network or the like, and executed on another independent mobile phone.

  The mobile phone according to the present invention is suitable as a mobile phone used in an area where a plurality of mobile phone services are provided, and can be applied well to a mobile phone having a roaming function.

It is a functional block diagram which shows the whole structure of a mobile telephone. It is an example of the data structure and content of a system information table. It is a flowchart which shows the system switching process which a mobile telephone performs. It is an example of the operating environment of a mobile phone. It is an example of the system switching operation | movement sequence in the said operating environment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cellular phone 10 Antenna 20 Radio | wireless part 30 Modulation / demodulation part 40 Audio | voice processing part 41 Microphone 42 Receiver 50 Control part 51 System acquisition control part 52 Scan control part 53 Interruption waiting control part 54 Scan pointer register 60 Storage part 61 System information table 62 Current system register 70 Clock unit 80 Operation unit 81 Display unit 90-93 Service area 95-98 Base station

Claims (9)

A mobile phone system having a different transmission method and / or a mobile phone having the same transmission method and a different frequency band, and selectively waiting at least one of three or more mobile phone systems as an active system,
System information storage means for storing the ranking of each of the three or more mobile telephone systems;
The active system at least one viewing contains a rank higher mobile telephone system than the a higher rank than the current system the first group mobile telephone systems, ranking lower than mobile telephone system of the first group, the in case the mobile telephone system is higher ranking than the active system seen at least one free, that the there is a mobile telephone system of ranking higher second group than the active system,
Scanning means for attempting acquisition of the first group of mobile telephone systems;
Interrupt waiting means for resuming standby of the active system after completing the acquisition of the first group of mobile telephone systems;
It said scanning means is a mobile phone that the interrupted listening for the active system is restarted by an interrupt standby means, and performs the attempt to capture the second group mobile telephone system. The time for performing the acquisition attempt of the first group of mobile telephone systems and the time for performing the acquisition attempt of the second group of mobile telephone systems by the scanning means is longer than the time of the call from the active system. The mobile phone according to claim 1, wherein the mobile phone is short. 3. The mobile phone according to claim 2, wherein the interrupt waiting means resumes waiting for the active system when the scanning means finishes the acquisition of the second group of mobile telephone systems. The mobile phone according to claim 3, wherein the scanning unit attempts to capture a mobile telephone system having a lower rank than the active system when the active system fails to resume standby. A mobile telephone system having a different transmission system and / or a mobile telephone system having the same transmission system and having different frequency bands, and storing the ranks of at least three or more mobile telephone systems, A method of controlling a mobile phone that selectively waits for one as an active system,
The active system at least one viewing contains a rank higher mobile telephone system than the a higher rank than the current system the first group mobile telephone systems, ranking lower than mobile telephone system of the first group, the in case the mobile telephone system is higher ranking than the active system seen at least one free, that the there is a mobile telephone system of ranking higher second group than the active system,
A scanning step of attempting to acquire the first group of mobile telephone systems;
An interrupt standby step of resuming standby of the active system after completing the acquisition attempt of the first group of mobile telephone systems;
The control method characterized in that the scan step interrupts the standby of the active system resumed by the interrupt standby step and tries to acquire the second group of mobile telephone systems. The time for performing the acquisition attempt for the first group of mobile telephone systems and the time for performing the acquisition attempt for the second group of mobile telephone systems by the scanning step is longer than the time for calling from the active system. The control method according to claim 5, wherein the control method is short. 7. The control method according to claim 6, wherein, in the interrupt standby step, the standby of the active system is resumed when the scanning step finishes the acquisition of the second group of mobile telephone systems. 8. The control method according to claim 7, wherein in the scan step, when the standby restart of the active system fails, an attempt is made to acquire a mobile telephone system having a lower rank than the active system. A mobile telephone system having a different transmission system and / or a mobile telephone system having the same transmission system and having different frequency bands, and storing the ranks of at least three or more mobile telephone systems, and the three or more mobile telephone systems A computer-executable program for controlling a mobile phone that selectively waits for one as an active system,
A program for causing a computer to execute the control method according to any one of claims 5 to 8.

Images